def post_process(out, pb, state, extend=False): """ Calculate gradient of the solution. """ from sfepy.discrete.fem.fields_base import create_expression_output aux = create_expression_output('ev_grad.ie.Elements( t )', 'grad', 'temperature', pb.fields, pb.get_materials(), pb.get_variables(), functions=pb.functions, mode='qp', verbose=False, min_level=0, max_level=5, eps=1e-3) out.update(aux) return out
def save_basis_on_mesh(mesh, options, output_dir, lin, permutations=None, suffix=''): if permutations is not None: mesh = mesh.copy() gel = GeometryElement(mesh.descs[0]) perms = gel.get_conn_permutations()[permutations] conn = mesh.cmesh.get_cell_conn() n_el, n_ep = conn.num, gel.n_vertex offsets = nm.arange(n_el) * n_ep conn.indices[:] = conn.indices.take((perms + offsets[:, None]).ravel()) domain = FEDomain('domain', mesh) omega = domain.create_region('Omega', 'all') field = Field.from_args('f', nm.float64, shape=1, region=omega, approx_order=options.max_order, poly_space_base=options.basis) var = FieldVariable('u', 'unknown', field) if options.plot_dofs: import sfepy.postprocess.plot_dofs as pd import sfepy.postprocess.plot_cmesh as pc ax = pc.plot_wireframe(None, mesh.cmesh) ax = pd.plot_global_dofs(ax, field.get_coor(), field.econn) ax = pd.plot_local_dofs(ax, field.get_coor(), field.econn) if options.dofs is not None: ax = pd.plot_nodes(ax, field.get_coor(), field.econn, field.poly_space.nodes, get_dofs(options.dofs, var.n_dof)) pd.plt.show() output('dofs: %d' % var.n_dof) vec = nm.empty(var.n_dof, dtype=var.dtype) n_digit, _format = get_print_info(var.n_dof, fill='0') name_template = os.path.join(output_dir, 'dof_%s%s.vtk' % (_format, suffix)) for ip in get_dofs(options.dofs, var.n_dof): output('dof %d...' % ip) vec.fill(0.0) vec[ip] = 1.0 var.set_data(vec) if options.derivative == 0: out = var.create_output(vec, linearization=lin) else: out = create_expression_output('ev_grad.ie.Elements(u)', 'u', 'f', {'f' : field}, None, Variables([var]), mode='qp', verbose=False, min_level=lin.min_level, max_level=lin.max_level, eps=lin.eps) name = name_template % ip ensure_path(name) out['u'].mesh.write(name, out=out) output('...done (%s)' % name)